It means that the bond is pointing below the plane.
Dashed bond is the representation of a vertical bond, away from the observer.
It means that the bond is pointing above the plane.
A dashed line represents a hydrogen bond because they are the weakest of the bonds.
The structure of SO2 is a hybrid made up from two resonance structures. The sulfur is the central atom, with one oxygen on each side in a linear formation. The two resonance structures have one double bond between the Sulfur and an Oxygen and the other bond as a single bond. ( O=S-O or O-S=O) In reality, the actual structure is a hybrid, in which the electrons that form the double bond move freely between each oxygen. The best way to show this is to write the structure with two single bonds, and add a dashed line above each of the double bonds. (O-S-O with dashed above). Each bond can be considered 1.5 in magnitude.
Single bond: F2, Cl2, alkanes Double bond: O2, alkenes Triple bond: N2, alkynes
It is called Hydrogen bonding. It is the strongest intramolecular bond type that can be formed between molecules. It usually occurs between a Hydrogen atom in a molecule and a very electronegative atom (oxygen, nitrogen or fluorine) with a free lone pair of atoms available. Therefore, in water the H and O form hydrogen bonds. The dashed line below represents an example of the Hydrogen bond. H | O ------------- H-O-H | H
It means that the bond is pointing above the plane.
In skeletal formulas, a bond drawn with as a solid wedge shows that the bond is pointing above the plane. A bond draw as a dashed wedge shows that the bond is pointing below the plane.
It is a representation of unknown or unspecified stereochemistry. It can also be used to indicate a mixture of isomers.
A dashed line represents a hydrogen bond because they are the weakest of the bonds.
Do you mean formulas like NaCl?
The sternum is a bone in the chest (thorax). It is part of the skeletal system.
The structure of SO2 is a hybrid made up from two resonance structures. The sulfur is the central atom, with one oxygen on each side in a linear formation. The two resonance structures have one double bond between the Sulfur and an Oxygen and the other bond as a single bond. ( O=S-O or O-S=O) In reality, the actual structure is a hybrid, in which the electrons that form the double bond move freely between each oxygen. The best way to show this is to write the structure with two single bonds, and add a dashed line above each of the double bonds. (O-S-O with dashed above). Each bond can be considered 1.5 in magnitude.
Single bond: F2, Cl2, alkanes Double bond: O2, alkenes Triple bond: N2, alkynes
A triple bond in chemistry is a chemical bond between two chemical elements involving six bonding electrons instead of the usual two in a covalent single bond. The most common triple bond, that between two carbon atoms, can be found in alkynes. Other functional groups containing a triple bond are cyanides and isocyanides. Some diatomic molecules, such as dinitrogen and carbon monoxide are also triple bonded. In-skeletal formula the triple bond is drawn as three parallel lines between the two connected atoms.
The skeletal formula for ethane will show how the six hydrogen atoms share 1 electron with carbon in order to form six carbon-hydrogen covalent bonds. The two carbon atoms, in turn, will each share an electron to form on carbon-carbon covalent bond. This makes up the ethane molecule.
The structural model of C3H8 should include bold and dashed bonds to show different planes. Bold is used for coming out of the page or screen and dashed is used for going away.
It is called Hydrogen bonding. It is the strongest intramolecular bond type that can be formed between molecules. It usually occurs between a Hydrogen atom in a molecule and a very electronegative atom (oxygen, nitrogen or fluorine) with a free lone pair of atoms available. Therefore, in water the H and O form hydrogen bonds. The dashed line below represents an example of the Hydrogen bond. H | O ------------- H-O-H | H